Featured image of What Is 3D Rendering? – Simply Explained
Render Revolution

What Is 3D Rendering? – Simply Explained

Picture of Sherwin Emiliano
by Sherwin Emiliano
Aug 8, 2019

Rendering is our window to a virtual world of 3D. Learn about 3D rendering, discovering the various techniques and what they're capable of!

What Is 3D Rendering? Virtual Photography

The "Hello World" of 3D rendering. Source: Wikipedia

3D rendering is basically the process of creating two-dimensional images (e.g. for a computer screen) from a 3D model. The images are generated based on sets of data dictating what color, texture, and material a certain object in the image has.

Rendering first came about in 1960 when William Fetter created a depiction of a pilot in order to simulate the space needed in a cockpit. Then, in 1963, Ivan Sutherland created Sketchpad, the first 3D modeling program, while at MIT. For his pioneering work, he is known as the “Father of Computer Graphics”.

In 1975, researcher Martin Newell created the “Utah Teapot”, a 3D test model which became a standard test render. This teapot, also called the Newell Teapot, has become so iconic that it’s thought to be the equivalent of “Hello World” in the realm of computer programming.

How It Works

In concept, 3D rendering is similar to photography. For instance, a rendering program effectively points a camera towards an object to compose a photo. As such, digital lighting is important to create a detailed and realistic render.

Over time, a number of different rendering techniques have been developed. Nevertheless, the goal of every render is to capture an image based on how light hits objects, just like in real life.


What Is 3D Rendering? Rendering Technique #1: Rasterization

Video games represent a common use case for rasterization
Video games represent a common use case for rasterization. Source: Game Dev Academy / YouTube

One of the earliest methods for rendering, rasterization works by treating the model as a mesh of polygons. These polygons have vertices which are embedded with information such as position, texture, and color. These vertices are then projected onto a plane normal to the perspective (i.e. the camera).

With the vertices acting like borders, the remaining pixels are filled with the right colors. Imagine painting by first having an outline for every color you paint – that’s rendering via rasterization.

Rasterization is a fast form of rendering. It’s still used widely today, especially for real-time rendering (e.g. computer games, simulation, and interactive GUI). More recently, the process has been further improved by higher resolution and anti-aliasing, a process used to smoothen the edges of objects and blend them into surrounding pixels.


What Is 3D Rendering? Rendering Technique #2: Ray Casting

A classic demonstration of ray casting.
A classic demonstration of ray casting. Source: Jean-Baptiste Yunès / YouTube

Though useful, rasterization encounters issues when overlapping objects are present: If surfaces overlap, the last one drawn will be reflected in the render, causing the wrong object to be rendered. To solve this, the concept of a Z-buffer was developed for rasterization. This involves a depth sensor to indicate which surface is under or over in a particular point of view.

This became unnecessary, however, when ray casting was developed. As opposed to rasterization, the potential problem of overlapping surfaces does not occur with ray casting.

Ray casting, as its name implies, casts rays onto the model from the camera’s point of view. The rays are drawn out to every pixel on the image plane. The surface it hits first will be shown in the render, and any other intersection after a first surface will not be rendered.


What Is 3D Rendering? Rendering Technique #3: Ray Tracing

Complex ray tracing on hair.
Complex ray tracing on hair. Source: Autodesk

Despite the advantages brought by ray casting, the technique still lacked the ability to properly simulate shadows, reflections, and refractions. Thus, ray tracing was developed.

Ray tracing works similar to ray casting, except it’s better at depicting light. Essentially, the primary rays from the camera’s point of view are cast onto the models to produce secondary rays. After hitting a model, shadow rays, reflection rays, or refraction rays will be emitted, depending on the surface’s properties.

A shadow is generated on another surface if the path of the shadow ray to the light source is hindered by the surface. If the surface is a reflective one, the resulting reflection ray will be emitted at an angle and will illuminate any other surface it hits, which will further emit another set of rays. For this reason, this technique is also known as recursive ray tracing. For a transparent surface, a refractive ray is emitted once the surface is hit by the secondary ray.


What Is 3D Rendering? Rendering Technique #4: Rendering Equation

Calculating each pixel is a time-consuming process.
Calculating each pixel is a time-consuming process. Source: Eric Arnebäck / YouTube

Further development in rendering eventually led to the rendering equation, which attempts to simulate how light is emitted more accurately in reality. The technique considers that light is emitted by everything, not just by a single light source. This equation tries to consider all sources of light in the render, as compared to ray tracing, which only utilizes direct illumination. The algorithm created using this equation is known as global illumination or indirect illumination.


What Is 3D Rendering? Some Considerations

CPU vs GPU rendering, compared.
CPU vs GPU rendering, compared. Source: cgarchitect.com


Rendering quality is improving, but the process is still slow – that’s why large companies have largely invested in render farms. In the meantime, individual designers and artists must make use of advanced hardware.

Rendering software either uses the GPU, CPU, or both to create renders. Additionally, rendering applications are resource-hungry programs. For a quicker render, additional upgrades are often needed. Processor speed, graphics card integration and compatibility, driver compatibility, RAM, are among the many aspects that enable fast, high-quality rendering.

Speaking of rendering software, if you’re short on options, check out this massive list of rendering applications available today.


As sad as it may sound, there’s no such thing as a perfect render. This is because several variables are constantly in balance, including photorealism, quality, speed, data size, and resolution.

Despite the complexity, one can work with these basic factors to achieve photorealistic renders. First, the model should be adjusted in the correct proportion. A model scaled in real-life helps. Measurements need not be precise, as details can be readjusted if they seem off in the render.

Model materials should be appropriate as well as highly-detailed to achieve realistic results. Random elements in the textures also help renders look more realistic.

Lighting intensity, temperature, and positioning is a huge factor, of course. The right amount and positioning of light will make it easier for details to be visible enough. Also, note that the color temperature, if not set right, could mess up your render.

Lastly, post-processing does give the final touches to your render. Simple retouches of your raw render can turn your renders into a breathtaking photorealistic image.


What Is 3D Rendering? Popular Applications

3D Rendering is enormous in the field of architecture.
3D Rendering is enormous in the field of architecture. Source: sixtrees3d.files.wordpress.com

3D rendering has changed workflows in many industries. In architecture and engineering, traditional plans and models are now complemented with rendered presentations. Prototyping using rendering is more cost-efficient, as well as time-saving.

In the movie industry, new films now heavily rely on renders. 3D animation studios have been working to produce high-definition animated movies. To generate a perfect shot, physical movie effects and props are assisted with high-definition video effects and computer-generated images. There is no limit, no matter what the scene may be.

In marketing, renders are used to portray photorealistic images of products. Being budget-efficient, marketing industries utilize rendering to create promotions to be as realistic and engaging as possible.

The improvement of games through photorealistic rendering and high-definition has a significance to the industry. Every year, game developers continue to aim for more realistic details to be more immersive to gamers.

The development of 3D rendering never stops. With a large number of industries relying on rendering, the support for its growth is assured in the following years.

Feature image source: www.woha.net

License: The text of "What Is 3D Rendering? – Simply Explained" by All3DP is licensed under a Creative Commons Attribution 4.0 International License.

Subscribe to updates from All3DP

You are subscribed to updates from All3DP

You can’t subscribe to updates from All3DP. Learn more… Subscribe

You can’t subscribe to updates from All3DP. Learn more…


Recommended for you